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Three-dimensional cellular automaton simulation of coupled hydrogen porosity and microstructure during solidification of ternary aluminum alloys

机译：三元铝合金凝固过程中氢孔隙与微观结构耦合的三维元胞自动机模拟

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Hydrogen-induced porosity formed during solidification of aluminum-based alloys has been a major issue adversely affecting the performance of solidification products such as castings, welds or additively manufactured components. A three-dimensional cellular automaton model was developed, for the first time, to predict the formation and evolution of hydrogen porosity coupled with grain growth during solidification of a ternary Al-7wt.%Si-0.3wt.%Mg alloy. The simulation results fully describe the concurrent nucleation and evolution of both alloy grains and hydrogen porosity, yielding the morphology of multiple grains as well as the porosity size and distribution. This model, successfully validated by X-ray micro-tomographic measurements and optical microscopy of a wedge die casting, provides a critical tool for minimizing/controlling porosity formation in solidification products.

机译：铝基合金凝固过程中形成的氢致孔隙率是一个主要问题，对铸件，焊缝或增材制造等凝固产物的性能产生不利影响。首次建立了三维元胞自动机模型，以预测三元Al-7wt。％Si-0.3wt。％Mg合金凝固过程中氢孔隙率的形成和演化以及晶粒的生长。模拟结果充分描述了合金晶粒和氢孔隙率的同时成核和演化，产生了多个晶粒的形态以及孔隙率的大小和分布。该模型通过楔形压铸件的X射线显微断层扫描测量和光学显微镜成功验证，为最小化/控制凝固产物中的孔隙形成提供了关键工具。

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期刊名称 Scientific Reports
作者
Cheng Gu; Yan Lu; Colin D. Ridgeway; Emre Cinkilic; Alan A. Luo;
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年(卷),期 -1(9),-1
年度 -1
页码 13099
总页数 12
原文格式 PDF
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入库时间 2022-08-21 10:55:01

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专利

1. Three-dimensional cellular automaton simulation of coupled hydrogen porosity and microstructure during solidification of ternary aluminum alloys [J] . Cheng Gu, Yan Lu, Colin D. Ridgeway, Scientific reports. . 2019,第1期

机译：三元铝合金凝固过程中耦合氢孔隙率和微观结构的三维细胞自动化模拟
2. Cellular Automaton Study of Hydrogen Porosity Evolution Coupled with Dendrite Growth During Solidification in the Molten Pool of Al-Cu Alloys [J] . Gu Cheng, Wei Yanhong, Yu Fengyi, Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第9期

机译：熔融池熔融池中刚性孔隙率进化的氢孔隙率进化的细胞自动化研究
3. Cellular automaton simulation of three-dimensional dendrite growth in Al-7Si-Mg ternary aluminum alloys [J] . Chen Rui, Xu Qingyan, Liu Baicheng Computational Materials Science . 2015,第Null期

机译：Al-7Si-Mg三元铝合金三维枝晶生长的元胞自动机模拟
4. A Modified Cellular Automaton Model for Simulation of Dendritic Microstructures in Solidification of Alloys [C] . M.F. Zhu, N.D. Cho, C.P. Hong International Conference on Solidification Science and Processing: Outlook for the 21st Century, Feb 18-21, 2001, Bangalore, India . 2001

机译：改进的细胞自动机模型，用于模拟合金凝固过程中的树枝状微结构。
5. Cellular Model Simulations of Solidification Structures in Ternary Alloys. [D] . Alsoruji, Ghazi H. 2013

机译：三元合金凝固组织的细胞模型模拟。
6. On oscillatory microstructure during cellular growth of directionally solidified Sn–36at.Ni peritectic alloy [O] . Peng Peng, Xinzhong Li, Jiangong Li, -1

机译：定向凝固Sn–36at。％Ni包晶合金细胞生长过程中的振荡微观结构
7. Cellular automaton simulation of three-dimensional dendrite growth in Al–7Si–Mg ternary aluminum alloys [O] . Chen Rui, Xu Qingyan, Liu Baicheng 2015

机译：Al-7Si-Mg三元铝合金三维枝晶生长的元胞自动机模拟

Three-dimensional cellular automaton simulation of coupled hydrogen porosity and microstructure during solidification of ternary aluminum alloys

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